Journal
BIOTECHNOLOGY AND BIOENGINEERING
Volume 92, Issue 7, Pages 934-942Publisher
JOHN WILEY & SONS INC
DOI: 10.1002/bit.20665
Keywords
DNA immobilization; hydrogel; confocal microscopy; DNA hybridization
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Using a non-contact microarrayer, amine-terminated probe oligonucleotides representing 20-, 50-, and 70-mer fragments of the fliC gene were covalently coupled into three-dimensional regions in a sugar polyacrylate hydrogel based on poly(6-acryloyl-beta-O-methyl galactopyranoside-co-aminopropyl methacrylamide). The arrayer deposited the solution containing ssDNA probes in discrete regions on the surface of the gel (i.e. as a droplet with a ca. 450 mu m diameter), allowing penetration and attachment of the ss DNA within the three dimensional region of the gel. The attachment was mediated by the homobifunctional crosslinker bis-succinimidyl suberate. Confocal microscopy showed the density of attached probe DNA was greatest in the interior-most regions of the gel volume. Target ssDNA (20- and 70-mer) was able to diffuse through the gel and undergo successful hybridization with the probes. For target ssDNA in the concentration range 0.19 mu M to 6.0 mu M, there was a linear correlation between DNA concentration and the fluorescence of the gel region where hybridization occurred. (c) 2005 Wiley Periodicals, Inc.
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